The environment sea turtle embryos experience in the nest is determined by the needs of the growing embryos and the ability of the nest substrate to transport heat, water, and respiratory gases to meet those needs. Relatively little is known of the PO2s in natural sea turtle nests, and what is known has been obtained through methods which may alter the nest PO2 during measurement. I describe a noninvasive means of measuring sea turtle nest PO2 using fiber-optic O2 sensors. I found that both the rate of nest PO2 decline and the minimum nest PO2 varied considerably among Loggerhead Turtle (Caretta caretta) nests. Nests exhibited rates of decline and minimum PO2s that ranged from 0.07 to 0.19 kPa/day and 11.4 to 16.4 kPa, respectively. No difference in minimum nest PO2 was observed between nests that were relocated and those left in situ. The mean minimum nest PO2 in this study (13.8 ± 0.21 kPa) is in agreement with other measurements of nest PO2, but the rate of PO2 decline measured in this study suggests that previous work may have underestimated how quickly the developing embryos reduce the nest PO2. The more rapid decline in nest PO2 may mean that the developing embryos fall below their critical PO2 and consequently experience reduced metabolic rates much earlier in incubation than previously suggested.